Results Acid-base disturbance (ABD) was found in 115 of the 126 patients (91.3%).
结果126例次血气分析中,发生酸碱失衡115例次(91.3%)。
Methods The types of acid-base disturbance in 40 cases with very low birth weight were analyzed.
方法对40例极低出生体重儿酸碱失衡类型进行分析。
Objective To improve the diagnosis and treatment of triple acid-base disturbance (TABD) in critical ill patients.
目的提高对危重病患者三重酸碱失衡(TABD)的诊断和救治水平。
Methods By statistics, to survey the clinic files and treatments about 13children with triple acid-base disturbance(TABD)in the last 4years.
方法对近4年本院儿科病房13例合并三重酸碱平衡紊乱(TABD)病儿的临床资料和治疗进行统计分析。
Treatment may include infusion of fluids and urine alkalinisation, correction of electrolyte and acid-base disturbance, haemodialysis or peritoneal dialysis, or surgical removal of kidney stones.
治疗方案包括输液和尿碱化,纠正电解质及酸度紊乱,血液或腹膜透析,或手术取出肾结石。
There was no triple acid base disturbance in this group.
本组未见三重酸碱紊乱的病例。
Objective To investigate the characteristics of blood acid base disturbance in neonates of hypoxic ischemic encephalopathy (HIE).
目的探讨新生儿缺氧缺血性脑病(HIE)血液酸碱失衡的特点。
Objective To explore the characteristics of blood acid base disturbance and serum anion gap (AG) of neonates in neonatal intensive care unit (NICU).
目的探讨新生儿重症监护室(NICU)中新生儿血液酸碱失衡和阴离子间隙(AG)的特点。
Results 84 patients all had acid-base balance disturbance of different types and hypoxemia.
结果:84例患者均有不同程度类型的酸碱平衡紊乱和低氧血症。
Objective Applying mathematical principle to build mathematical mode to study renal compensatory adjustment action in the acute respiratory acid-base balance disturbance quantitatively.
目的在急性呼吸性酸碱平衡紊乱的研究中,应用数学原理,建立数学模型,对肾的代偿调节作用进行量化研究。
Applying curve fitted method quantitates ability of renal compensatory adjustment in acute respiratory acid-base balance disturbance.
应用曲线拟合法,对急性呼吸性酸碱平衡紊乱时肾的代偿调节能力进行量化。
It point out that mathematical model has definite meaning to adjusted mechanism of lung compensatory and compensatory strength and so on in studying acid-base balance disturbance.
提示这一数学模型对研究酸碱平衡紊乱时,肺代偿调节机制、代偿强度等情况有一定的意义。
Platelet function can be affected by hypoxia, disturbance of acid base balance and inflammation.
缺氧、酸碱失衡、炎症影响血小板功能。
Platelet function can be affected by hypoxia, disturbance of acid base balance and inflammation.
缺氧、酸碱失衡、炎症影响血小板功能。
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